Abstract
In recent years, more and more researchers have paid attention to the three‐dimensional target coverage of environmental monitoring wireless sensor networks (EMWSNs) under real environmental conditions. However, the target coverage method studied in the traditional two‐dimensional plane is full of loopholes when applied in the real three‐dimensional physical world. Most coverage algorithms usually only optimize for a single problem of target coverage or network energy consumption and cannot reduce network energy consumption while improving coverage. This paper proposes a novel binary adaptive clone shuffled leapfrog algorithm (BACSFLA) suitable for EMWSNs. BACSFLA has an excellent performance in the coverage of three‐dimensional nodes, which can significantly reduce the network energy consumption of ENWSNs in the coverage process, and greatly improve the coverage of nodes. Through simulation experiments, BACSFLA was compared with simulated annealing (SA) and genetic algorithm (GA) in the same conditional parameters. The coverage rate of BACSFLA in EMWSNs is 3.9% higher than that of GA and 5.4% higher than that of SA. The network energy consumption of BACSFLA is 36.0% lower than GA and 35.9% lower than SA. Moreover, BACSFLA can significantly reduce the calculation time and get better results in a shorter time.
Highlights
environmental monitoring wireless sensor networks (EMWSNs) is a self-organizing network composed of sensor nodes deployed in the environmental monitoring area
The results show that the network energy consumption of binary adaptive clone shuffled leapfrog algorithm (BACSFLA) is reduced by 36:0% compared with genetic algorithm (GA) and 35:9% compared with simulated annealing (SA)
Coverage has always been a basic problem in the research of EMWSNs, and its purpose is to ensure a certain network performance while maximizing the target coverage as much as possible
Summary
EMWSN is a self-organizing network composed of sensor nodes deployed in the environmental monitoring area. The nodes have the characteristics of small size, low cost, and low-power consumption. They can perceive, collect, and process the information of the monitored objects in realtime. Coverage optimization is a basic problem of EMWSNs. The proper coverage of EMWSN nodes will directly affect network performance and network life. The coverage optimization of EMWSN nodes has always been a hot issue of concern and research by scholars. Some researchers have made breakthroughs in improving the energy efficiency and coverage of wireless sensor networks (WSNs) [1, 2]
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